Laptop elevation device

ABSTRACT

A laptop elevation device ( 1 ) that attaches to a bottom surface ( 13 ) of a laptop ( 12 ). Each laptop elevation device has a fold-up leg ( 2 ) pivotally or hingedly attached to a base ( 3 ). An arm ( 5 ) is pivotally attached to the base. When the laptop elevation device is in an open position, the arm may be folded downward to engage one of a plurality of holes ( 9 ) located on the leg, thereby locking the laptop elevation device at a desired height. The base may be built into a laptop or attached to the underside of an existing laptop using an attachment means ( 14 ). The leg may also have a layer of rubber ( 11 ) to prevent the leg from slipping while in use. A clip ( 11 ) located on the base locks the leg and arm in place while the laptop elevation device is in folded position. An additional feature of the laptop elevation device is one or more non-slip strips ( 20 ) that attach to the underside of a laptop to allow the front portion of the laptop to hang over the edge of a flat surface ( 22 ) while the laptop is in an elevated position. An alternative embodiment of the laptop elevation device provides a handle ( 17 ) for carrying the laptop computer.

CROSS REFERENCE TO RELATED APPLICATION

This is a continuation-in-part application of Ser. No. 12/564,097 filed on Sep. 22, 2009, now U.S. Pat. No. 8,050,032. The patent application identified above is incorporated here by reference in its entirety to provide continuity of disclosure.

BACKGROUND OF THE INVENTION

This invention relates to laptop computers, more particularly, a device for elevating a rear portion of a laptop computer in order to allow for greater air flow under the laptop computer, thereby preventing the laptop computer from overheating.

Laptop computers dissipate heat through their bottom surfaces. Small rubber feet are typically located on the bottoms of laptops to provide an air gap for cooling beneath the laptop. However, the air gaps created by these rubber feet are often very narrow and do not provide enough air circulation under a laptop. Therefore, there is a tendency for laptops to heat up to the point where the heat may pose a risk of injury to the user, damage to the surface on which the laptop is resting and/or to the laptop itself. A further problem is that user's who type on laptops often experience discomfort because the laptops are in a flat position causing a user to keep his or her wrists and hands in an unnatural position.

Therefore, a need exists for a laptop elevation device that elevates a rear portion of a laptop computer to allow for greater air flow under the laptop computer and tilts the keyboard to provide a user with greater ergonomic positioning of his or her wrists and hands while typing.

The relevant prior art includes the following references:

Pat. No. (U.S. unless stated otherwise) Inventor Issue/Publication Date 2009/0178938 Palmer Jul. 16, 2009 2009/0179131 Lord et al. Jul. 16, 2009 2009/0179132 Qin et al. Jul. 16, 2009 7,532,463 Jacobs et al. May 12, 2009 2008/0251680 Matias Oct. 16, 2008 7,417,853 Myers et al. Aug. 26, 2008 2008/0192424 Lee Aug. 14, 2008 7,324,340 Xiong Jan. 29, 2008 2007/0258206 Huang Nov. 08, 2007 7,280,355 Taylor Oct. 09, 2007 7,207,540 Thomas Apr. 24, 2007 7,173,819 Wilkox Feb. 06, 2007 7,161,799 Lim et al. Jan. 09, 2007 WO2006/121229 Lee Nov. 16, 2006 2006/0243878 Saad Nov. 02, 2006 7,035,100 Lord Apr. 25, 2006 DE202005017227 Engel Mar. 09, 2006 7,001,088 Hui-hu Feb. 21, 2006 2005/0213302 Lin Sep. 29, 2005 WO2005/054739 Ramirez Jun. 16, 2005 DE202005001418 Engel Jun. 02, 2005 6,825,415 Chen et al. Nov. 30, 2004 6,682,040 MacEachern Jan. 27, 2004 2003/0231466 Huang Dec. 18, 2003 6,568,650 Helmetsie et al. May 27, 2003 6,527,241 Lord Mar. 04, 2003 6,529,377 Nelson et al. Mar. 04, 2003 6,474,614 MacEachern Nov. 05, 2002 6,437,978 Ozaki et al. Aug. 20, 2002 6,279,861 Nolan Aug. 28, 2001 6,256,193 Janik et al. Jul. 03, 2001 6,239,971 Yu et al. May 29, 2001 5,831,823 Hoedl Nov. 03, 1998 5,818,690 Spencer Oct. 06, 1998 5,552,960 Nelson et al. Sep. 03, 1996 5,503,361 Kan-o et al. Apr. 02, 1996

SUMMARY OF THE INVENTION

The primary object of the present invention is to provide a laptop elevation device that elevates the rear portion of a laptop computer.

Another object of the present invention is to provide a laptop elevation device that provides greater air flow to the bottom surface of a laptop.

An even further object of the present invention is to provide a laptop elevation device that provides greater comfort to a user while typing on a laptop.

Another object of the present invention is to provide a laptop elevation device that has a height adjustment means.

An even further object of the present invention is to provide a laptop elevation device that may also act as a handle for carrying a laptop.

Another object of the present invention is to provide a laptop elevation device that provides one or more non-slip strips that allow a user to place the underside of a laptop on the edge of a table or other flat surface while the laptop is in an elevated position.

The present invention fulfills the above and other objects by providing a pair of laptop elevation devices that attach to a bottom surface of a laptop computer. Each laptop elevation device has a fold-up leg pivotally or hingedly attached to a base. An arm is pivotally attached to the base. When the laptop elevation device is in an open position, the arm may be folded downward to engage one of a plurality of holes located on the leg, thereby locking the laptop elevation device at a desired height. The base may be built into a laptop or attached to the underside of an existing laptop using an attachment means, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc. The leg may also have a layer of rubber to prevent the leg from slipping while in use. When the laptop elevation device is not in use the leg and the arm may be folded flat against the underside of the laptop so the laptop can fit into a carrying case. A clip located on the base locks the leg and arm in place while the laptop elevation device is in folded position.

An additional feature of the laptop elevation device is one or more non-slip strips that attach to the underside of a laptop. The one or more non-slip strips allow a user to place the underside of a laptop against the edge of a table or other flat surface and have the front portion of the laptop hang over the edge of the table or other flat surface while the laptop is in an elevated position, thereby placing the laptop in an ergonomic position for typing.

An alternative embodiment of the laptop elevation device provides a handle for carrying the laptop computer.

The above and other objects, features and advantages of the present invention should become even more readily apparent to those skilled in the art upon a reading of the following detailed description in conjunction with the drawings wherein there is shown and described illustrative embodiments of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

In the following detailed description, reference will be made to the attached drawings in which:

FIG. 1 is a perspective side view of a laptop elevation device of the present invention in an open position;

FIG. 2 is a perspective side view of a laptop elevation device of the present invention in a closed position;

FIG. 3 is a perspective side view of a laptop having a pair of laptop elevation devices of the present invention attached thereto;

FIG. 4 is a perspective top view of a laptop elevation device of the present invention in a closed position;

FIG. 5 is a perspective side view of an alternative embodiment of a laptop elevation device in a fully open position attached to a bottom surface of a laptop;

FIG. 6 is a bottom plan view of an alternative embodiment of a laptop elevation device in a closed position attached to a bottom surface of a laptop;

FIG. 7 is a bottom view of an alternative embodiment of a laptop elevation device in a partially open position attached to a bottom surface of a laptop;

FIG. 8 is a bottom view of a laptop having a laptop elevation device with non-slip strips attached thereto;

FIG. 9 is a side view of a laptop having a laptop elevation device with non-slip strips attached thereto; and

FIG. 10 is a side view of a laptop having a laptop elevation device with non-slip strips attached thereto sitting on a flat surface in an elevated position.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

For purposes of describing the preferred embodiment, the terminology used in reference to the numbered accessories in the drawings is as follows:

-   1. laptop elevation device -   2. leg -   3. base -   4. height adjustment means -   5. arm -   6. proximal end of arm -   7. distal end of arm -   8. pin -   9. hole -   10. rubber -   11. clip -   12. laptop -   13. bottom surface -   14. attachment means -   15. slot -   16. pivot point -   17. handle -   18. hollow portion -   19. spring -   20. non-slip strip -   21. ridge -   22. flat surface

With reference to FIG. 1, a perspective side view of a laptop elevation device 1 of the present invention in an open position is shown. Each laptop elevation device 1 has a fold-up leg 2 attached to a base 3 at pivot points 16. A height adjustment means 4 allows a user to adjust the space between the base 3 and the leg 2, thereby adjusting the height the that a laptop 12 is elevated to, as shown in FIG. 3. As shown here, the height adjustment means is an arm 5 having a proximal end 6 and a distal end 7. The arm is pivotally attached to the base 3 at the proximal end 6. A pin 8 is located on the distal end of the arm 5. When the laptop elevation device 1 is an open position the arm 5 may be folded downward from the base 3 so that the pin 8 engages one of a plurality of holes 9 located on the leg 2, thereby locking the laptop elevation device 1 at a desired height. A layer of rubber 10 located on the leg 2 prevents it from slipping while in use. A clip 11 located on the leg 2 engages the base 3 when the laptop elevation device 1 is in a closed position, thereby locking the laptop elevation device in a closed position, as shown further in FIG. 2. The base may be an integral part of a laptop 12 or attached to the bottom surface 13 of an existing laptop 12 using an attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc.

With reference to FIG. 2, a perspective side view of a laptop elevation device 1 of the present invention in a closed position is shown. Each laptop elevation device 1 has a fold-up leg 2 attached to a base 3 at pivot points 16. An arm 5, which acts as a height adjustment means 4, is pivotally attached to the base 3. When not in use the leg 2 and the arm 3 may be folded upward flat against the base 3. A clip 11 located on the leg 2 engages the base 3 when the laptop elevation device 1 is in a closed position, thereby locking the laptop elevation device in a closed position. A layer of rubber 10 located on the leg 2 prevents the leg 2 from slipping while in use.

Now referring to FIG. 3, a perspective side view of a laptop 12 having a pair of laptop elevation devices 1 of the present invention attached thereto is shown. Each laptop elevation device 1 has a fold-up leg 2 attached to a base 3 at pivot points 16. A height adjustment means 4 allows a user to adjust the space between the base 3 and the leg 2, thereby adjusting the height to while the laptop is elevated, as shown in FIG. 3. As shown here, the height adjustment means is an arm 5 having a proximal end 6 and a distal end 7. The arm is pivotally attached to the base 3 at the proximal end 6. A pin 8 is located on the distal end of the arm 5. When the laptop elevation device 1 is an open position the arm 5 may be folded downward from the base 3 so that the pin 8 engages one of a plurality of holes 9 located on the leg 2, thereby locking the laptop elevation device 1 at a desired height. A layer of rubber 10 located on the leg 2 prevents the leg 2 from slipping while in use. The base 3 may be an integral part of a laptop 12 or attached to the bottom surface 13 of an existing laptop 12 using an attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc.

Now referring to FIG. 4, a perspective top view of a laptop elevation device 1 of the present invention in a closed position is shown. Each laptop elevation device 1 has a fold-up leg 2 attached to a base 3 at pivot points 16. The base 3 may be an integral part of a laptop 12 or attached to the bottom surface 13 of an existing laptop 12 using an attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc. A clip 11 located on the leg 2 engages the base 3 when the laptop elevation device 1 is in a closed position, thereby locking the laptop elevation device in a closed position. A spring 19 located between the leg 2 and the base 3 biases the laptop elevation device 1 into a closed position, thereby holding the laptop elevation device 1 in place.

Now referring to FIG. 5, a perspective side view of an alternative embodiment of a laptop elevation device 1 in a fully open position attached to a bottom surface 13 of a laptop 12 is shown. The laptop elevation device 1 has fold-up legs 2 pivotally attached to corresponding bases 3. Slots 15 are located in the legs 2. The slots 15 allow the legs 2 to fold up and down and to slide along pivot points 16 located in the bases 3. A handle 17 connects the legs 2 and allows a user to carry the laptop 12. A layer of rubber 10 located on the leg 2 prevents the leg 2 from slipping while in use. The bases 3 may be an integral part of a laptop 12 or attached to the bottom surface 13 of an existing laptop 12 using an attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc.

Now referring to FIG. 6, a bottom plan view of an alternative embodiment of a laptop elevation device 1 in a closed position attached to a bottom surface 13 of a laptop 12 is shown. The laptop elevation device 1 has fold-up legs 2 pivotally attached to corresponding bases 3. Slots 15 are located in the legs 2, as shown in FIG. 4. The slots 15 allow the legs 2 to fold up and down and to slide along pivot points 16 located in the bases 3. Hollow portions 18 of the bases 3 allow the legs 2 to be slid into the bases 3 when the laptop elevation device 1 is not in use. A handle 17 connects the legs 2 and allows a user to carry the laptop 12. A layer of rubber 10 located on the leg 2 prevents the leg 2 from slipping while in use. The bases 3 may be an integral part of a laptop 12 or attached to the bottom surface 13 of an existing laptop 12 using an attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc.

With reference to FIG. 7, a bottom view of an alternative embodiment of a laptop elevation device 1 in a partially open position attached to a bottom surface 13 of a laptop 12 is shown. The laptop elevation device 1 has fold-up legs 2 pivotally attached to corresponding bases 3. Slots 15 are located in the legs 2, as shown in FIG. 4. The slots 15 allow the legs 2 to fold up and down and to slide along pivot points 16 located in the bases 3. A handle 17 connects the legs 2 and allows a user to carry the laptop 12 when the handle is slid out of the bases 3. A layer of rubber 10 located on the leg 2 prevents the leg 2 from slipping while in use. The bases 3 may be an integral part of a laptop 12 or attached to the bottom surface 13 of an existing laptop 12 using an attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc.

With reference to FIGS. 8 and 9, a bottom view and a side view, respectively, of a laptop 12 having a laptop elevation device 1 with non-slip strips 20 attached thereto is shown. In addition to having legs 2 and corresponding bases 3 attached to the underside of the laptop 12, at least one non-slip strip 20 is also attached to the underside of the laptop 12. The one or more non-slip strips 20 are preferably made of a non-slip material, such as rubber, silicone, etc., that will prevent the laptop 12 from slipping when placed on a flat or angled surface 22. An attachment means 14, such as a hook and loop fastener, adhesive, double sided tape, interlocking strips, etc. is used to attached the one or more non-slip strips 20 to the laptop 12. The one or more non-slip strips 20 may also have ridges 21 that provide added traction when the laptop 12 is place on the edge of a flat surface 22 in an elevated position, as shown in FIG. 10.

Finally with reference to FIG. 10, a side view of a laptop 12 having a laptop elevation device 1 with non-slip strips 20 attached thereto sitting on a flat surface 22 in an elevated position is shown. The non-slip strips 20 allow a user to place the underside of a laptop against the edge of a flat surface 22 and have the front portion of the laptop 12 hang over the edge of the flat surface while the laptop 12 is in an elevated position, thereby placing the laptop 12 in an ergonomic position for typing.

It is to be understood that while a preferred embodiment of the invention is illustrated, it is not to be limited to the specific form or arrangement of parts herein described and shown. It will be apparent to those skilled in the art that various changes may be made without departing from the scope of the invention and the invention is not to be considered limited to what is shown and described in the specification and drawings. 

The invention claimed is:
 1. A laptop elevation device for laptop computers, said laptop elevation device comprising: a first base; a first leg having a proximal end pivotally attached to the first base; an attachment means located on the first base for attaching the laptop elevation device to a corner area of a bottom surface of a laptop computer; a second base; a second leg having a proximal end pivotally attached to the second base; an attachment means located on the second base for attaching the second base to a corner area of a bottom surface of the laptop computer opposite from the corner area where the first base is attached; at least two holes located on the first leg; a substantially U-shaped first arm located between the first leg and the first base for maintaining a predetermined distance between the first leg and the first base; said substantially U-shaped first arm having two proximal ends pivotally attached to the first base; said substantially U-shaped first arm having a distal end having a projection extending from the distal end and having a substantially similar shape as the at least two holes located on the first leg; at least two holes located on the second leg; a substantially U-shaped second arm located between the second leg and the second base for maintaining a predetermined distance between the second leg and the second base; said substantially U-shaped second arm having two proximal ends pivotally attached to the second base; said substantially U-shaped second arm having a distal end having a projection extending from the distal end and having a substantially similar shape as the at least two holes located on the second leg; said first base being separate from the second base, thereby allowing a user to attach the first base and the second base to opposite corner areas of a bottom surface of a laptop computer regardless of the dimensions of the laptop computer and while still leaving a substantial portion of the bottom surface of the laptop uncovered by the laptop elevation device; at least one non-slip strip; and an attachment means located on the at least one non-slip strip for attaching the at least one non-slip strip of the laptop elevation device to a bottom surface of a laptop computer; wherein: said projection located on the first substantially U-shaped arm is a pin that engages the at least two holes on the first leg; and said projection located on the second substantially U-shaped arm is a pin that engages the at least two holes on the second leg; wherein the laptop elevation device further comprising: a first spring located between the first base and the proximal end of the first leg; said first spring providing tension pushing the first leg into a closed position against the first base; a second spring located between the second base and the proximal end of the second leg; and said second spring providing tension pushing the second leg into a closed position against the second base.
 2. The laptop elevation device of claim 1 further comprising: a clip located on the distal end of the first leg for locking the first leg in a closed position against the first base; and a clip located on the distal end of the second leg for locking the second leg in a closed position against the second base.
 3. A laptop elevation device for laptop computers, said laptop elevation device comprising: a first base; a first leg having a proximal end pivotally attached to the first base; an attachment means located on the first base for attaching the laptop elevation device to a corner area of a bottom surface of a laptop computer; a second base; a second leg having a proximal end pivotally attached to the second base; an attachment means located on the second base for attaching the second base to a corner area of a bottom surface of the laptop computer opposite from the corner area where the first base is attached; at least two holes located on the first leg; a substantially U-shaped first arm located between the first leg and the first base for maintaining a predetermined distance between the first leg and the first base; said substantially U-shaped first arm having two proximal ends pivotally attached to the first base; said substantially U-shaped first arm having a distal end having a projection extending from the distal end and having a substantially similar shape as the at least two holes located on the first leg; at least two holes located on the second leg; a substantially U-shaped second arm located between the second leg and the second base for maintaining a predetermined distance between the second leg and the second base; said substantially U-shaped second arm having two proximal ends pivotally attached to the second base; said substantially U-shaped second arm having a distal end having a projection extending from the distal end and having a substantially similar shape as the at least two holes located on the second leg; said first base being separate from the second base, thereby allowing a user to attach the first base and the second base to opposite corner areas of a bottom surface of a laptop computer regardless of the dimensions of the laptop computer and while still leaving a substantial portion of the bottom surface of the laptop uncovered by the laptop elevation device; said projection located on the first substantially U-shaped arm is a pin that engages the at least two holes on the first leg; and said projection located on the second substantially U-shaped arm is a pin that engages the at least two holes on the second leg; at least one non-slip strip; and an attachment means located on the at least one non-slip strip for attaching the at least one non-slip strip of the laptop elevation device to a bottom surface of a laptop computer; wherein the laptop elevation device further comprising: a first spring located between the first base and the proximal end of the first leg; said first spring providing tension pushing the first leg into a closed position against the first base; a second spring located between the second base and the proximal end of the second leg; and said second spring providing tension pushing the second leg into a closed position against the second base.
 4. The laptop elevation device of claim 3 further comprising: a clip located on the distal end of the first leg for locking the first leg in a closed position against the first base; and a clip located on the distal end of the second leg for locking the second leg in a closed position against the second base.
 5. A laptop elevation device for laptop computers, said laptop elevation device comprising: a first base; a first leg having a proximal end pivotally attached to the first base; an attachment means located on the first base for attaching the laptop elevation device to a corner area of a bottom surface of a laptop computer; a second base; a second leg having a proximal end pivotally attached to the second base; an attachment means located on the second base for attaching the second base to a corner area of a bottom surface of the laptop computer opposite from the corner area where the first base is attached; at least two holes located on the first leg; a substantially U-shaped first arm located between the first leg and the first base for maintaining a predetermined distance between the first leg and the first base; said substantially U-shaped first arm having two proximal ends pivotally attached to the first base; said substantially U-shaped first arm having a distal end having a projection extending from the distal end and having a substantially similar shape as the at least two holes located on the first leg; at least two holes located on the second leg; a substantially U-shaped second arm located between the second leg and the second base for maintaining a predetermined distance between the second leg and the second base; said substantially U-shaped second arm having two proximal ends pivotally attached to the second base; said substantially U-shaped second arm having a distal end having a projection extending from the distal end and having a substantially similar shape as the at least two holes located on the second leg; said first base being separate from the second base, thereby allowing a user to attach the first base and the second base to opposite corner areas of a bottom surface of a laptop computer regardless of the dimensions of the laptop computer and while still leaving a substantial portion of the bottom surface of the laptop uncovered by the laptop elevation device; said projection located on the first substantially U-shaped arm is a pin that engages the at least two holes on the first leg; said projection located on the second substantially U-shaped arm is a pin that engages the at least two holes on the second leg; a first spring located between the first base and the proximal end of the first leg; said first spring providing tension pushing the first leg into a closed position against the first base; a second spring located between the second base and the proximal end of the second leg; said second spring providing tension pushing the second leg into a closed position against the second base; at least one non-slip strip; and an attachment means located on the at least one non-slip strip for attaching the at least one non-slip strip of the laptop elevation device to a bottom surface of a laptop computer.
 6. The laptop elevation device of claim 5 further comprising: a clip located on the distal end of the first leg for locking the first leg in a closed position against the first base; and a clip located on the distal end of the second leg for locking the second leg in a closed position against the second base. 